RU2009106C1 - Heat exchanger - Google Patents

Abstract

FIELD: thermal power engineering. SUBSTANCE: heat exchanger has jacket 14 and annular condensate manifold 7 with a condensate feed branch pipe. Heater 9 is made in the form of U-shaped tubes connected to a steam source, the tubes communicate with annular manifold 7 connected to the cavity of steam jacket 14 at its lower section. Steam jacket 14 communicates with the cavity of tank 8 at its upper section, and water bleed branch pipe 18 is positioned over steam jacket 14. EFFECT: improved structure. 2 dwg

Description

 The invention relates to heat supply, and in particular to hot water systems.

 There are high-speed heaters, which for all their advantages have significant disadvantages - they are difficult to manufacture and work only on chemically purified water [1].

 The closest in technical essence to the proposed device is a degasser, where inclined water-guiding plates are installed in the upper part of the casing, and vertical partitions are installed inside the casing on both sides of the heater, forming supply channels with the side walls of the casing and chemically purified water is also required [2].

 All these shortcomings complicate the general technological scheme and require large initial capital investments. The aim of the invention is to increase the specific productivity when working on raw chemically untreated water. In FIG. 1 shows a heat exchanger, general view; in FIG. 2 is a cross section AA in FIG. 1.

The heat exchanger is a cylinder containing a vertical degassing column and a vertical storage tank coaxially mounted below it. Magnetized water with t = +40 ^{° C} temperature of the feed pipe 1 through the nozzle 2, an outlet 3 is fed into the upper zone of deaeration head 4 and reaches the steel sheets 5, mounted concentrically vertical adjustment head, and then - the receiving cone 6, water Perforated an annular collector 7 installed inside the accumulator tank 8. at the bottom of the tank are installed two pairs of U-shaped steam heater 90 with respect ^to each other, with a condensate drain collector annular condenser 10 disposed outside na flat shirt. The apparatus is installed on the foundation 11, equipped with a flushing line 12 with an alkaline pump 13. A steam jacket 14 is put on the battery tank and steam perforated pipes 15 are located in the gap between the tank and the steam jacket.

 The whole tank structure is mounted on supports 16. A steam jacket is connected in the upper part to the battery tank by discharge lines 17. A drain pipe 18 is located above the steam jacket. A discharge pipe 19 is installed on the deaeration column. The apparatus is equipped with an alkaline irrigation system 20. The bottom of the shirt is the condensate line pipe 21. In general, the apparatus is covered with reinforced thermal insulation 22.

 The heat exchanger operates as follows. Through the inlet pipe 1, after the first heating stage, magnetized water is supplied through the nozzle 2 and the spray outlet 3 to the upper zone of the deaeration head 4. Water flows down the films along the vertical steel sheets 5, enters the receiving cone 6 and then into the perforated water ring collector 7 installed inside the battery tank 8 above the U-shaped steam heaters 9. At this, the organized water path ends and the natural circulation begins under the influence of gravitational forces. The hottest and demineralized water through the drain pipe 18, located above the steam jacket, is discharged into the storage tank, located next to zero. Water is heated due to the heat of the condensate collector 10, which also includes the condensate lines of the enterprise’s shops of 4 U-shaped heaters 9, installed in pairs at different levels in the lower part of the tank, steam jacket 14, where perforated steam pipes are mounted 15. Excess steam from 4 shirts along the unloading lines 17 in the amount of 4 pieces fall under the deaeration head 4, where contact heat exchange with water takes place. The deaeration head is equipped with a discharge pipe 19 for communication with the atmosphere and the release of gases. The heat exchanger is equipped with an irrigation system 20, an alkaline pump 13 with pipelines 12. The condensate is removed from the apparatus from the lower zone of the steam jacket 14 through the drain pipe of the pipe 21. The whole apparatus is mounted on a reinforced concrete plate 11, which is covered with a steel sheet to which the steam jacket 14 is welded double-sided welding seam. The inner tank is mounted on supports 16. The entire apparatus is covered with reinforced thermal insulation. (56) 1. Kopiev S.F. Heat supply, M., 1953, p. 63.

 2. USSR author's certificate N 541795, cl. C 02 F 1/20, 1975.

Claims (1)

 HEAT EXCHANGING APPARATUS, comprising a vertical degassing column with a vapor outlet pipe, a vertical accumulator tank coaxially mounted underneath it, equipped with water supply and drain pipes, a water distributor and a heater placed under it, characterized in that, in order to increase the specific productivity when working on crude chemically not purified water, it is equipped with a steam jacket and an annular condensate collector with a condensate supply pipe, the heater is made in the form of U-shaped pipes connected to the source nick steam and communicated with an annular manifold connected to the steam jacket cavity in its lower portion, a steam jacket communicates with the cavity of the tank in the upper portion thereof, and the drainage pipe is placed above the steam jacket.

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